Help with Linear Algebra , Orthonormal Basis

Greetings , I'm new to the site and well , I have the following question.

In a polynominal space in the order smaller then 3 , a given standard basis is {1,x,x^2,x^3} , find the Orthonormal Basis.
(I had to translate the question from another language so forgive me for any mistakes made in the translation)

Basically I've been a real slacker on my algebra course so now I have study by myself :P .
Anyways , I think the answer is {1,x+x^2+x^3} but im not sure , nor do I have a proper solution , so if possible I'd like to ask for a proper full solution.
Help would be much appriciated , Thanks.

Greetings , I'm new to the site and well , I have the following question.

In a polynominal space in the order smaller then 3 , a given standard basis is {1,x,x^2,x^3} , find the Orthonormal Basis.
(I had to translate the question from another language so forgive me for any mistakes made in the translation)

Basically I've been a real slacker on my algebra course so now I have study by myself :P .
Anyways , I think the answer is {1,x+x^2+x^3} but im not sure , nor do I have a proper solution , so if possible I'd like to ask for a proper full solution.
Help would be much appriciated , Thanks.

Sorry to bump an older thread , but figured it was better then opening a new one. Anyways I've looked around for some gram schmidt process , wikipedia , and some random find on google , they all use some proj function wich I'm unfamiliar with , most likely because the linear algebra course I'm taking is for physicists so I figure they removed part of the material . From the class notes our gram schmidt process is diffrent , but after trying to use it on the {1,x,x^2,x^3} basis all i get is U1=1 U2=0 U3=0 ... and so forth .

i define U(1) = 1 U(2) = A*1 + B*x
so 0=(U(2),U(1)) = (A,1) + (B*x,1) = A +B*x , i choose B=1 so i get A=-x and there goes the endless loop of U(n)=0 for n>1

note : (x,y) - inner product space , just to clarify in case this forum signs it diffrently
help would be much appriciated

Sorry to bump an older thread , but figured it was better then opening a new one. Anyways I've looked around for some gram schmidt process , wikipedia , and some random find on google , they all use some proj function wich I'm unfamiliar with , most likely because the linear algebra course I'm taking is for physicists so I figure they removed part of the material . From the class notes our gram schmidt process is diffrent , but after trying to use it on the {1,x,x^2,x^3} basis all i get is U1=1 U2=0 U3=0 ... and so forth .

i define U(1) = 1 U(2) = A*1 + B*x
so 0=(U(2),U(1)) = (A,1) + (B*x,1) = A +B*x , i choose B=1 so i get A=-x and there goes the endless loop of U(n)=0 for n>1

note : (x,y) - inner product space , just to clarify in case this forum signs it diffrently
help would be much appriciated

First, we need an inner product space for an ortho-normal basis and you have not specified one. We could assume we are working with the inner product:

where and are real polynomial of degree not more than . That is our inner product space is that of real polynomials of degree not more than on with the given inner product.

The first component of our ortho-normal basis is just the normalised version of the first component of the given basis, which is the constant unit function f_0(x)=1. Now:

so it is already normalised.

We construct the next component by removing the projection of onto the space spanned by :

and then normalise to get:

and we continue in like manner for the other components of the ortho-normal basis, remove the projections of the next element of the original basis onto the subspaces spanned by each of the already found orthon-normal basis elements, and then normalise.

i see , i guess i wrongly assumed it was a simple action like (a(n),b(n)) = a1*b1 + a2*b2 +...
the reason i didnt specifie an inner space product is because i simply quated the question and translated , so i had no idea about it. well makes more sense now , also i poked around wikipedia meanwhile and noticed that they tend to define the integration limits from a to b , rather then 0 to 1 , is it a certain norm or does each question usually defines it's own inner product space , and the one i bumped into simply was lacking it ?
also thanks for explanation Captainblack , pretty much cleared stuff up for me on the subject , pretty much had to learn the whole course by myself in the last week.

i see , i guess i wrongly assumed it was a simple action like (a(n),b(n)) = a1*b1 + a2*b2 +...
the reason i didnt specifie an inner space product is because i simply quated the question and translated , so i had no idea about it. well makes more sense now , also i poked around wikipedia meanwhile and noticed that they tend to define the integration limits from a to b , rather then 0 to 1 , is it a certain norm or does each question usually defines it's own inner product space , and the one i bumped into simply was lacking it ?
also thanks for explanation Captainblack , pretty much cleared stuff up for me on the subject , pretty much had to learn the whole course by myself in the last week.

Each problem should either specify the inner product (the example that I gave was just that), the resuling ortho-normal basis will be different for each choice of inner product (usually), or limits of integration.